Liebert 1C19532P1S Temperature Sensor
The Liebert 1C19532P1S Temperature Sensor is a critical OEM replacement part engineered for precise thermal monitoring within Vertiv Liebert environmental control units. Rated for a wide operational range of -40 to 120 degrees Fahrenheit, this NTC thermistor or RTD-based sensor (depending on the specific Liebert DataMate or Challenger 3000 series configuration) delivers high-accuracy resistance feedback to the microprocessor controller. Its durable industrial construction ensures signal stability even in high-airflow or high-vibration environments typical of data center cooling systems. As a direct factory-specified component, it eliminates the calibration drift and compatibility issues common with aftermarket sensors. Integrating this 1C19532P1S sensor allows for immediate restoration of HVAC system efficiency and helps prevent low-pressure trips or frost protection alarms caused by inaccurate temperature readings. Technicians can rely on this precision thermal transmitter for consistent monitoring and regulation in mission-critical applications where uptime is the priority.
Key Benefits:
- Precise Thermal Feedback: Provides accurate scaling between -40°F and 120°F for optimal thermal management.
- Direct OEM Compatibility: Specifically designed to interface with Liebert control boards without modifications.
- Rugged Design: Built to withstand the environmental stresses of industrial process cooling and HVAC operations.
- System Optimization: Facilitates correct superheat and subcooling calculations by providing reliable air or liquid temperature data.
Common Questions:
How do I troubleshoot a suspected 1C19532P1S sensor failure?
Technicians should first verify the sensor's resistance using a multimeter set to Ohms and compare the reading against the standard Liebert resistance-temperature chart. Common signs of failure include "open circuit" errors, erratic display values, or the unit being stuck in a cooling/heating cycle regardless of actual room conditions.
Can this sensor be used across different Liebert models?
While the 1C19532P1S is a standard part for many Liebert DataMate and Challenger systems, always verify the specific MFR part number in your unit's technical manual, as wiring harness lengths and connector types can vary between thermal management generations.
What causes these sensors to drift or fail?
The most frequent causes are moisture ingress at the sensing tip, mechanical damage to the lead wires during maintenance, or electrical interference from unshielded high-voltage lines running parallel to the sensor's signal path.
Temperature Sensor
Disclaimer: While we strive for 100% accuracy, product data and specifications are subject to change. Please contact our team to confirm compatibility or technical details before purchasing.
Original: $193.63
-65%$193.63
$67.77Liebert 1C19532P1S Temperature Sensor
The Liebert 1C19532P1S Temperature Sensor is a critical OEM replacement part engineered for precise thermal monitoring within Vertiv Liebert environmental control units. Rated for a wide operational range of -40 to 120 degrees Fahrenheit, this NTC thermistor or RTD-based sensor (depending on the specific Liebert DataMate or Challenger 3000 series configuration) delivers high-accuracy resistance feedback to the microprocessor controller. Its durable industrial construction ensures signal stability even in high-airflow or high-vibration environments typical of data center cooling systems. As a direct factory-specified component, it eliminates the calibration drift and compatibility issues common with aftermarket sensors. Integrating this 1C19532P1S sensor allows for immediate restoration of HVAC system efficiency and helps prevent low-pressure trips or frost protection alarms caused by inaccurate temperature readings. Technicians can rely on this precision thermal transmitter for consistent monitoring and regulation in mission-critical applications where uptime is the priority.
Key Benefits:
- Precise Thermal Feedback: Provides accurate scaling between -40°F and 120°F for optimal thermal management.
- Direct OEM Compatibility: Specifically designed to interface with Liebert control boards without modifications.
- Rugged Design: Built to withstand the environmental stresses of industrial process cooling and HVAC operations.
- System Optimization: Facilitates correct superheat and subcooling calculations by providing reliable air or liquid temperature data.
Common Questions:
How do I troubleshoot a suspected 1C19532P1S sensor failure?
Technicians should first verify the sensor's resistance using a multimeter set to Ohms and compare the reading against the standard Liebert resistance-temperature chart. Common signs of failure include "open circuit" errors, erratic display values, or the unit being stuck in a cooling/heating cycle regardless of actual room conditions.
Can this sensor be used across different Liebert models?
While the 1C19532P1S is a standard part for many Liebert DataMate and Challenger systems, always verify the specific MFR part number in your unit's technical manual, as wiring harness lengths and connector types can vary between thermal management generations.
What causes these sensors to drift or fail?
The most frequent causes are moisture ingress at the sensing tip, mechanical damage to the lead wires during maintenance, or electrical interference from unshielded high-voltage lines running parallel to the sensor's signal path.
Temperature Sensor
Disclaimer: While we strive for 100% accuracy, product data and specifications are subject to change. Please contact our team to confirm compatibility or technical details before purchasing.
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Description
The Liebert 1C19532P1S Temperature Sensor is a critical OEM replacement part engineered for precise thermal monitoring within Vertiv Liebert environmental control units. Rated for a wide operational range of -40 to 120 degrees Fahrenheit, this NTC thermistor or RTD-based sensor (depending on the specific Liebert DataMate or Challenger 3000 series configuration) delivers high-accuracy resistance feedback to the microprocessor controller. Its durable industrial construction ensures signal stability even in high-airflow or high-vibration environments typical of data center cooling systems. As a direct factory-specified component, it eliminates the calibration drift and compatibility issues common with aftermarket sensors. Integrating this 1C19532P1S sensor allows for immediate restoration of HVAC system efficiency and helps prevent low-pressure trips or frost protection alarms caused by inaccurate temperature readings. Technicians can rely on this precision thermal transmitter for consistent monitoring and regulation in mission-critical applications where uptime is the priority.
Key Benefits:
- Precise Thermal Feedback: Provides accurate scaling between -40°F and 120°F for optimal thermal management.
- Direct OEM Compatibility: Specifically designed to interface with Liebert control boards without modifications.
- Rugged Design: Built to withstand the environmental stresses of industrial process cooling and HVAC operations.
- System Optimization: Facilitates correct superheat and subcooling calculations by providing reliable air or liquid temperature data.
Common Questions:
How do I troubleshoot a suspected 1C19532P1S sensor failure?
Technicians should first verify the sensor's resistance using a multimeter set to Ohms and compare the reading against the standard Liebert resistance-temperature chart. Common signs of failure include "open circuit" errors, erratic display values, or the unit being stuck in a cooling/heating cycle regardless of actual room conditions.
Can this sensor be used across different Liebert models?
While the 1C19532P1S is a standard part for many Liebert DataMate and Challenger systems, always verify the specific MFR part number in your unit's technical manual, as wiring harness lengths and connector types can vary between thermal management generations.
What causes these sensors to drift or fail?
The most frequent causes are moisture ingress at the sensing tip, mechanical damage to the lead wires during maintenance, or electrical interference from unshielded high-voltage lines running parallel to the sensor's signal path.
Temperature Sensor
Disclaimer: While we strive for 100% accuracy, product data and specifications are subject to change. Please contact our team to confirm compatibility or technical details before purchasing.
